Kangtuo Medical: A New Application of Bionic PEEK Bone Development CompanyThis innovative application of Kangtuo Medical has opened up a new road for the research and development of bionic humanoid robots in the future. With the maturity and popularization of technology, humanoid robots will have more realistic and humanized performance, bringing more possibilities to human society. However, at present, this technology also faces some challenges, such as the high cost of PEEK materials and the precision requirements of 3D printing technology, resulting in relatively large initial investment. It is also a technical problem to optimize printing parameters to ensure the performance and accuracy of bone parts. However, with the progress of 3D printing technology and material science, these challenges are expected to be gradually solved. The reduction of cost and the improvement of production efficiency will make PEEK bones more widely used in the field of bionic humanoid robots, and push humanoid robot technology to a new height.With its advanced technical advantages and excellent product quality, Kangtuo Medical ranks first in the domestic market share in the field of PEEK skull repair, and its products have also been approved for listing by the US Food and Drug Administration, and its global layout has been accelerated. In the future, Kangtuo Medical is expected to continue to give play to its technological innovation advantages and achieve wider application and greater development in medical and robotics fields.
This innovative application of Kangtuo Medical has opened up a new road for the research and development of bionic humanoid robots in the future. With the maturity and popularization of technology, humanoid robots will have more realistic and humanized performance, bringing more possibilities to human society. However, at present, this technology also faces some challenges, such as the high cost of PEEK materials and the precision requirements of 3D printing technology, resulting in relatively large initial investment. It is also a technical problem to optimize printing parameters to ensure the performance and accuracy of bone parts. However, with the progress of 3D printing technology and material science, these challenges are expected to be gradually solved. The reduction of cost and the improvement of production efficiency will make PEEK bones more widely used in the field of bionic humanoid robots, and push humanoid robot technology to a new height.As a high-tech enterprise focusing on the research, development, production and sales of three types of implantable medical devices, Kangtuo Medical has made remarkable achievements in the medical field. Now its 3D printed PEEK bone plate technology has shown great application potential in the field of bionic humanoid robots, which has opened up new development space for the company.In the bone manufacturing of bionic humanoid robot, Kangtuo Medical's 3D printed PEEK bone plate technology has obvious advantages. First, it is highly customized. This technology can accurately copy 1:1 according to different human skeleton data, and make highly personalized bones, which is of great significance for scientific research or entertainment activities that need to imitate specific human individual shapes. Second, the material performance is superior, and the high strength and high modulus of PEEK material make the manufactured bones have enough strength and flexibility, which makes the robot move steadily and naturally. Third, the production efficiency is high. 3D printing technology can shape the skeleton with complex structure at one time, without manual assembly and modification in traditional manufacturing methods, which greatly improves the production efficiency. Fourthly, PEEK material has good biocompatibility and is friendly to human body, which is very important for bionic humanoid robots that need direct contact with people, which can reduce health risks and enhance the closeness between people and machines.
This innovative application of Kangtuo Medical has opened up a new road for the research and development of bionic humanoid robots in the future. With the maturity and popularization of technology, humanoid robots will have more realistic and humanized performance, bringing more possibilities to human society. However, at present, this technology also faces some challenges, such as the high cost of PEEK materials and the precision requirements of 3D printing technology, resulting in relatively large initial investment. It is also a technical problem to optimize printing parameters to ensure the performance and accuracy of bone parts. However, with the progress of 3D printing technology and material science, these challenges are expected to be gradually solved. The reduction of cost and the improvement of production efficiency will make PEEK bones more widely used in the field of bionic humanoid robots, and push humanoid robot technology to a new height.In the bone manufacturing of bionic humanoid robot, Kangtuo Medical's 3D printed PEEK bone plate technology has obvious advantages. First, it is highly customized. This technology can accurately copy 1:1 according to different human skeleton data, and make highly personalized bones, which is of great significance for scientific research or entertainment activities that need to imitate specific human individual shapes. Second, the material performance is superior, and the high strength and high modulus of PEEK material make the manufactured bones have enough strength and flexibility, which makes the robot move steadily and naturally. Third, the production efficiency is high. 3D printing technology can shape the skeleton with complex structure at one time, without manual assembly and modification in traditional manufacturing methods, which greatly improves the production efficiency. Fourthly, PEEK material has good biocompatibility and is friendly to human body, which is very important for bionic humanoid robots that need direct contact with people, which can reduce health risks and enhance the closeness between people and machines.
Strategy guide 12-06
Strategy guide